Flush-All-Tankless

ABSTRACT

Improvements in a tankless toilet flush system is disclosed. The Flush-All-Tankless device is disclosed in two versions: First version has the water output at the bottom that has an All-split-lock coupler joint assembly to connect it to urinals or some toilet bowls with no water tank mounting holes (like in many commercial toilet bowls). The second version has a factory built in All-Mounting-Base at the bottom to connect it to the remainder of toilet bowl systems on the market which includes all the toilet bowls with water tank mounting holes like in most residential toilet bowls. For those who prefer the porcelain look, an All porcelain cover can be used. This system eliminates the need for a water tank and can be used on toilet bowls with a wall mounted tanks used in many countries. This way the wall mounted tank can be completely eliminated.

CROSS REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of Provisional Application Ser. No.62/352,205 filed Jun. 20, 2016 and application Ser. No. 15/288,044,filed on Oct. 7, 2016, which claims the benefit of ProvisionalApplication Ser. No. 62/245,118 filed Oct. 22, 2015 the entire contentsof which is hereby expressly incorporated by reference herein.

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT

Not Applicable

THE NAMES OF THE PARTIES TO A JOINT RESEARCH AGREEMENT

Not Applicable

INCORPORATION-BY-REFERENCE OF MATERIAL SUBMITTED ON A COMPACT DISC

Not Applicable

BACKGROUND OF THE INVENTION Field of the Invention

This invention relates to improvements in a toilet flush system. Moreparticularly, this flushing system is a revolutionary designed to flusha toilet, with major advantages over existing systems. The waterreservoir is sealed and connected directly to city water.

Description of Related Art Including Information Disclosed Under 37 CFR1.97 and 1.98

Most of the existing toilet flushing systems on the market both at homesand businesses have complicated and cumbersome devices to flush toiletsand urinals. Business flushing device that requires a special plumbingwith a large diameter expensive chromed pipes that must emerge from thewall at an exact location and make turns in a specific pattern with thetubing must be cut just the right length to be fitted to the toiletbowl. Often the flush handle, on those flushing apparatus, get stuck inan open and/or in a closed position that forces the user to fiddle withit to make it work correctly. Even though the outside is built of ahardy chromed metal, the inside flushing mechanism is made of materialthat is easy to deform or wear out from being under constant waterpressure and/or being around the corrosive nature of water 24/7.

Conventional water tanks and commercial flushers have two systems orparts of the two systems that are very much prone to fatigue,malfunctions, leaks and sometimes floods. The two systems are:

A. The rubber flappers with floaters and or the many complicatedcontraptions or devices that contains, rubber diaphragms, relief valves,cartridge assemblies, actuators, air inducers, vacuum breakers,plungers, pistons, O-rings, bladders, sufficient water pressure,pressure regulator, requirements for a specific size water line diameteror wall location, air leaks or explosions caused by design fault ormaterial fatigue, user's unfriendly shut off etc., all which are made ofan easy to deform, warp or fatigue material and be submerged in water24/7 and many component that must move to function.

B. The automatic water refill systems or shut offs for the water tank orcommercial flushers with the associated moving parts (floaters) or othercontraptions that requires adjustments to shut it off at just the rightmoment (water level, flusher recycle). Check valves style shut offvalves are also prone to fatigue and failure because of the propertiesof the materials used in them. Other direct water pressure devices alsorequire components to move up, down, sideways, inflate or deflate etc.,to shut off the water refill system/flusher. All conventional toiletbowls and flushers utilize a predetermined amount of water whichnecessitates the need for the automatic refill and automatic shut-offmechanism. The Flush-All-Tankless does not use a predetermined amount offlush water, therefore automatic refill and automatic shut-off is notneeded.

Both items A & B above requires a precise adjustments and because theycontain many easy to deform or fatigue moving parts such as floats,rubber diaphragms, O-rings, pistons, rubber balls, plungers, airinducers, pressure regulators, vacuum breakers, cartridges etc. Theyrequire continuous maintenance and repairs. A number of patents and orpublications have been made to address these issues. Exemplary examplesof patents and or publication that try to address this/these problem(s)are identified and discussed below.

U.S. Pat. No. 7,565,706 issued on Jul. 28, 2009 to Terrance E. Janssendiscloses a Pressure Assisted Flush Assembly and Installation Methods.The pressure assisted flush assembly for a toilet includes a compressedair assisted flush water tank that includes a plunger device. One ormore plumbing lines are used to connect an incoming water line to theflush water tank and the flush water tank to a toilet bowl. While it isa pressure assisted flush, as the flushing system discloses, it is stilla predetermined amount of water. While this patent is for a pressurizedflush, each flush is the same volume and does not allow a person toflush a smaller or variable amount of water. This flushing system cannotbe easily retrofitted to an existing toilet bowl.

All conventional toilet bowl tanks and flushers utilize a predeterminedamount of water which necessitates the need for the automatic refill andautomatic shut off mechanism. The Flush-All does not use a predeterminedamount of flush water and therefore it does not need the automaticrefill or automatic shut off. This is an important concept because themajority of breakdowns and failures associated with conventional toiletbowls and flushers is associated with the system attempt to measure thisexact predetermined amount of water at each and every flush. Thisnecessitates filling this amount of water into some type of a receptacleor a container such as toilet bowl water tank, plunger device assemblyor some type of a bladder etc. Then after those containers are filledwith water a second mechanism must be triggered to stop this refillprocess at just the exact time. Those two mechanisms of refilling andthen stopping this refill involves many mechanical and hydraulicinteractions at each and every flush and is bound to fail sooner orlater sometimes with devastating effects. Even-though some of thosedevices have a pressurized flush receptacle or container this pressureis not a direct city water pressure which is more reliable and has astronger and linear (water pressure stays constant) throughout the flushthan a pressurized container that loses most of its initial pressureafter a few seconds of the flush content is released into the drainpipe.

What is needed is a flushing system that operates with toilets havingthe different shapes and designs of the existing toilet bowls so as tomake it easy to retrofit to those bowls without replacing the wholetoilet bowl system only the tank. Regardless of the shape or the size ofthose water tanks, the flush mechanism and the attachment mechanism tothe toilet bowls is the same in all of them. The person flushing thetoilet determines the length of time and how much water is flushed downthe toilet. It is an instant on and off (on demand) by holding down theflush handle momentarily as needed. This device is powered by directcity water pressure combined with reservoir water. The sudden release ofthis water reservoir's content combined by the sudden impact of the citywater pressure will cause most toilet bowls to clear its contents in thefirst few seconds of flushing which means most users will not need tohold down the handle any longer than the usual time used in conventionalflushing. This is an important feature in contrast to having apredetermined amount of flush water necessitates the need for refillingwhich requires time, way to measure the refilled amount, and anautomatic shut off system. All those requirements cause water waste andfailures associated with automatic water shut off mechanisms in additionto the loud noise this process generates. The Flush-All-Tankless can beretrofitted to most existing systems or it can be made as a completeseparate toilet bowl fixture. Here are some of the advantages of thissystem. The Flush-All-Tankless proposed in this document provides thesolution.

BRIEF SUMMARY OF THE INVENTION

It is an object of the Flush-All-Tankless to eliminates the water tankand all its components in its entirety. This eliminates a major sourcefor leaks and maintenance issues.

It is an object of the Flush-All-Tankless to be offered in a versionwith the water output at the bottom that has an All-split-lock couplerjoint assembly that would connects it to urinals or some toilet bowlswith no water tank mounting holes as found in many commercial toiletbowls.

It is an object of the Flush-All-Tankless to be offered in a versionwith a factory built in All-Mounting-Base at the bottom to connect it tothe remainder of toilet bowl systems on the market which includes allthe toilet bowls with water tank mounting holes like in most residentialtoilet bowls.

It is an object of the Flush-All-Tankless to save water because theflush amount is not predetermined by the size of the tank reservoir(i.e. 1.6 Gallon). The flusher holds down the handle for the length oftime he or she wants the water to flow. More for larger bowl contentless for a minor flush.

It is an object of the Flush-All-Tankless to provide forceful flushing.The water pressure of the incoming water with the gravitational weightof the reservoir water determines the strength of the flush. The flushis not determined only by a simple gravitational flow of the water tankcontent.

It is another object of the Flush-All-Tankless to prevent one of themajor causes of water damage to homes and businesses by the overflowingof a defective/damaged conventional toilet bowls water flushing systems.

It is another object of the Flush-All-Tankless to provide a universaldesign that can be used on most toilet bowls systems, a simpleretrofitting procedure using the exclusive ALL-UNIVERSAL MOUNTING BASEdesign (see description later) or AH-Split-Lock coupler assembly asdisclosed in this document that would save the country a lot of water aswe encounter more and more drought situations. To prevent mold growth (amajor health hazard) that is caused by many leaks and humidity (unsealedwater tanks filled with water) that would leak or increase the humidity.

It is still another object of the Flush-All-Tankless to require onlyreplacement of the tank or the flusher and use the existing bowl. Thissystem can virtually be retrofitted to any existing toilet bowl. Theonly part to be replaced is the toilet tank, or the flush mechanism(commercial toilet bowls). It is a quick and easy procedure thatrequires no structural damage or repair to the bathroom.

Various objects, features, aspects, and advantages of the presentinvention will become more apparent from the following detaileddescription of preferred embodiments of the invention, along with theaccompanying drawings in which like numerals represent like components.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING(S)

FIG. 1 is a sectional view of the Flush-All-Tankless system.

FIG. 2 shows a perspective view of a conventional commercial sit-downtoilet with the Flush-All-Tankless using an All-Split-Lock couplerassembly.

FIG. 3 shows a perspective view of a urinal with a Flush-All-Tankless.

FIG. 4 shows an alternate perspective view of a conventional commercialsit-down toilet with the Flush-All-Tankless using an All-Split-Lockcoupler assembly.

FIG. 5 shows Flush-All-Tankless with factory built-in All-Universalmounting base.

FIG. 6 shows another alternate perspective view of a conventionalresidential style sit-down toilet with the Flush-All-Tankless with afactory built-in All-Universal mounting base using a city waterconnection.

FIG. 7 shows the All-Split-Lock flusher coupler assembly.

FIG. 8 shows a perspective view of the flush handle attached to theball-in-socket coupler.

FIG. 9 shows the Flush-All-Tankless motion detector.

FIG. 10 shows the Flush-All-Tankless with the flush handle in the topposition.

FIG. 11A-11C shows the All-Flush handle (A) and the All-joint (B).

DETAILED DESCRIPTION OF THE INVENTION

This Flush-All-Tankless is easy to understand easy to install andrequires no special water pressure or plumbing other than the standardexisting simple ½ inch or ⅜″ inch water line plumbing found in mosthomes and businesses. The flushing mechanism of this invention is madeup of a hardy metal material that has virtually no wear out quality.Additionally, because the mechanism is so simplified there is minimal toalmost no maintenance needed. There is no risk of leaks, water damage,mold growth, warping of mechanism (as usually happens with rubber,plastic, nylon, silicone, polymers etc.). Because those componentsdeform or wear out quickly, there is a continuous water leak that ishard to detect visually causing varicose veins like hard water depositsin toilet bowls and urinals. This device is so simple & universal and itcould replace completely the toilet bowl water tank or the commercialflusher with all the complicated gadgetry and the contraptions insidethe toilet bowl water tank or the flusher. Because this apparatuscompletely eliminates the need for the water tank, it can easily replacethe wall mounted water tanks that are found in many countries around theworld.

Components:

Note: In the following FIGS. 1 through 11 is for describing of theFlush-All-Tankless and its parts. This description uses the term All inreference to the names of components assigned to the Flush-All-Tankless.

FIG. 1 is a sectional view of the Flush-All-Tankless system. The Mainbody 20 contains the water chamber (reservoir), conical shaped washer(All-Washer) assembly, oversized heavy duty actuator (All-Flush handle)arm, loading spring.

This overview of the Flush-All-Tankless shows how it could easilyeliminate the need for a toilet bowl water tank or commercial flushersand all the problems associated with those tanks or flushers. Homes andbusinesses owners can use with their existing toilet bowls or urinals.In the case of a toilet bowls with water tank mounting holes it could bevery easily retrofitted directly on the bowl by the use of the factorybuilt in mounting base (All-Mounting-Base see FIG. 5 below), or if it isa commercial bowl with no water tank mounting holes then it can also bemounted on the toilet bowl directly by the use of the All-Split-Lockcoupler assembly or be mounted on the wall and be connected to the bowlwith the All-Split-Lock coupler assembly (see FIG. 7 below fordescription). There is no need to replace the toilet bowl and all thedamage to the flooring associated with such a task in addition to theexposure to the sewer line toxic fumes and mold growth around the baseand the wax ring. Many businesses and homeowners object to replacing thewhole toilet bowl because of the above reasons.

The Flush-All-Tankless has a heavy duty oversized flush handle(All-Handle) to make it easier for older people or children to operateit. The Flush-All-Tankless apparatus is shaped rectangular with anapproximate dimensions of: Height 6-12 inches×Depth 4 inches×Width 4-14inches. Other dimensions can be used also depending on the application.There is a small water reservoir (chamber) above the All-Washer toincrease the size of the flush and make it more powerful. Therecommended material for this device is stainless steel with polishedchrome exterior, other materials can be used depending on theapplications and the manufacturer's choice. This device can be made witha wall mounting flanges 21 on the sides or without those flanges 21. Thedevice with All-Universal-Mounting-Base will have no mounting flangesbecause it will not be needed. Devices with universal mounting base andno flanges will have the back side chrome finished like the rest of thesurfaces. The top part of the device will have four choices of waterconnection: on top, back, right or left side. When one connection isused the other connections will be sealed shut with a screw-in plug. Ifthe device is connected to city water on the top then the back or sidesports of the ½″ inch or ⅜″ inch water lines (other sizes can be usedalso) will be shut closed with a screw-in plugs. The alternate waterconnections openings 22, 23, 24 for the city water. The back 23 or thesides 22, 24 are built flush with the device wall with the threads onthe inside of the water reservoir (chamber). Another water connection onthe wider version of this device is at the bottom of the device 46(standard ⅞″ or other sizes). This connection will allow air pressure tobuild-up because it will refill from the bottom up. The incoming citywater has a shut-off valve 31 to open and close the supply of water tothe top of the Flush-All-Tankless housing 20 and flows through a unioncoupling into the housing 20.

When any opening is not used it is plugged with a screw-in or hex typeplug-in to keep the back or the sides flat. This is done for cosmeticreasons to keep the sides looking flat when not used or to preventinterference with wall mounting if someone would like to use the topconnection for the city water and mount the device flat on the wall. Thetop water connection 27 opening must be large enough to allow for theinitial assembly of the conical shaped washer 41 (All-Washer with aflush water flow channels 26). The All-Washer is made up of a conicalshaped washer 41 that is a coated cast metal. This washer is cast intoone piece with a hexagonal (threaded on the inside) portion above it andthe rod below it. 26 is a flush water flow channel. The hexagonal shapeprotrusion 25 above the All-Washer 41 is not a nut but rather a designcast with the washer to allow for the stabilization and prevent theAll-Washer from rotating as it is being screwed with the flush handleactuator arm below. The threads inside this hexagonal shaped portion isto screw-in the rod 69 (as shown in FIG. 9) for the motion detector ontop of the device. The All-washer works by being raised and lowered in arecess at the bottom of the reservoir. This type of motion preventswear-out from friction.

The conical shape washer 41 is designed to create maximum contactbetween the sealing surface of the washer and the device wall 48. Thewater pressure and the direction of the water flow in this deviceenhances the sealing of the washer into the shut off position like inseating of a thimble on a finger or a crown on a prepared tooth. Thisdesign also allows the washer to wear in instead of wearing out, whichmeans as the unit is used more and more the sealing surfaces will becomemore matching to each other. This washer shut off system also has thesimplest design of mechanical movement just a slight dislodging (no realmovement utilizing the All-joint as shown in FIGS. 11B and 11C) so nochance of wear out or jamming. This All-Washer 41 is connected to theactuator arm 43 by a simplified connection of being positioned between arounded surfaces on one side and a hex on the other side 44 and 45,washers that guides its up and down movement. This type of movementprevents the use of an actual joint connection that would eventuallycollects water deposits build-up and becomes sticky. The nut 47 is aunion coupler to attach the flush handle's ball-in-socket end to thedevice.

This device is a new and revolutionary toilet bowl/urinals flushingdevice. It eliminates the need for toilet bowl tanks and commercialflushers with all the fatigues, leaks and failures with the resultingwasted water and floods that causes billions of dollars in propertydamage worldwide annually. It has a minimal hydraulic mechanicalmovements/interactions. A simple push on the ball-in-socket flush handle50 (FIG. 1) and a stream of water that is powered by the city waterpressure, and reservoir water flows down to the toilet bowl or theurinal. Once the handle 50 is released, it snaps back to the horizontalposition automatically by the force of the spring 42 that loads theAll-Washer, and the flushing stops. It is that simple, on demandflushing with no waiting or sticky flush handles. just a slightdislodging of the conical shaped device 41 out of its rest position,brings it into a full function, shutting it off is just as simple asletting go of the handle 50. Spring 42 is activated by compressing andnot by stretching which prevents wear out and fatigue. The end of theflush handle insertion into the device is shaped like a ball-in-socket(as shown in FIG. 8) with the cover is designed to control the range ofthe flush handle movement with an upper stop designed into it to keepthe flush handle in a horizontal position. The side movements of thehandle 50 is prevented by the travel window designed into this cover.The user has complete control over the time and therefore the volume ofthe flush. In most instances the user does not need to hold the flusherhandle any longer than he or she would do in a conventional toilet bowlbecause this system offers the additional flushing force offered by thereservoir water and the direct city water pressure that is not found inthose conventional toilet bowls or commercial flushers. In contrast totoilet bowl tanks that uses much more water than the stated rating of awater saver designs of 1.2 gallons.

The 1.2 gallons includes only the water content in the tank and does nottake into account the additional water wasted as the automatic refillmechanism is activated and before the rubber flapper falls down andsufficient water accumulates above it to build enough gravitationalweight to seal the flapper drain opening. Other contraptions that usebladders, relief valves, rubber diaphragms, plungers, gaskets, syringes,air inducers, pressure regulators, vacuum breakers etc., creates such anincredible noise that most people are reluctant to flush them at nightso as not to wake up sleeping people. Those contraptions are also, inaddition to using a lot of water, are made of material that easilydeform, fatigue or wear out from being in water 24/7 or moving back andforth, up and down, inflate or deflate to perform their functions. TheAll-Washer 41 is made of a coated metal that is in contrast to the flatflexible material (i.e. rubber) were pressure rings and deformation andwarping caused by pressure and being in water 24/7 results in waterleaks.

The shape and position of this washer makes it less prone to problemscompared to the many devices on the market with complicatedcontraptions/mechanism. Because this washer 41 is made of a coated metallike in the ball valve, it is virtually has no components to wear out.Ball valves require a lot of force to rotate them in order to turn themon and off. This is caused by the strong frictional pressure exerted bythe sealing surfaces. The All-Washer works by being lifted up for (waterflow) and it will automatically come down (water flow stops) by thespring force. This type of movement has almost zero friction which meansminimal friction wear-out and therefore it requires very little force tooperate and only little or no maintenance. Other materials to coat thiswasher can also be used such as plastic, silicone, rubber or otherfuture high tech polymers. Those flexible material coating do not easilywear out because they are supported by the hard metal beneath them. Theuse of this device involves a simple push down on the flush handle, oncethe flush handle 50 is released a spring 42 load brings the handle 50back into the horizontal position automatically and the conical shapedwasher 41 is pulled back into the shut off position by the spring 42load. After a flush, the water flows down the drain opening 40 and intoa toilet or urinal.

FIG. 2 shows a perspective view of a conventional commercial sit-downtoilet with the Flush-All-Tankless. A commercial toilet bowl 58 isconnected directly to Flush-All-Tankless 54 using All-Split-Lock couplerassembly 56 (see FIG. 7 below for description) on a dome shaped cover57. Because this coupler offers a good mechanical retention it can beused directly with the commercial toilet bowl 58. The commercial watersupply 32 is converted to a standard water supply to theFlush-All-Tankless 54 through a ball valve shut-off 31. A common ½″ or⅜″ water line 33 connects the valve 31 to the back of theFlush-All-Tankless 54. In this embodiment, a motion sensor 60 is used toactivate the flushing. A user can also activate the flush handle 50 toflush the Flush-All-Tankless 54.

FIG. 3 shows a perspective view of a urinal with a Flush-All-Tankless20. In this figure, the Flush-All-Tankless 20 is connected to a citywater line 19 and to a commercial urinal 70. In this version an optionalincoming water connection 24 on either the right, left, or the back canbe used to allow the addition of a motion sensor on top. The All-FlushHandle 50 is shown on the side of the Flush-All-Tankless 20 housing.Water from the housing 20 flows through a down pipe and is connected tothe urinal 70 with a hex shaped protrusion 73 (as shown in FIG. 7), thatis tightened against the dome shaped cover 72, that is wide enough toadd support and strength to the All-Split-Lock coupler assembly joint71, that provides a connector coupling to the urinal 70. Fluid that isflushed will run through the urinal 70 and down the drain line 18.

FIG. 4 shows an alternate perspective view of a conventional commercialsit-down toilet with the Flush-All-Tankless 20. In this figure, theFlush-All Tankless 20 is attached to a commercial toilet bowl 58 usingthe existing commercial type plumbing:

In this version, the commercial type water inlet is converted to asimple ½″ or ⅜″ standard water connection 32 with a ball type shut-offvalve 31. A connection line 33 connects the water supply from theshut-off valve 31 to the Flush-All-Tankless 20.

There is no longer any need for a fancy and expensive oversized chrometubing. The inlet pipe can be placed at any location near the toiletbowl 58 and not in a specific location in relation to the toilet bowlwhich is usually both an expensive and involved construction project.This embodiment shows an All-Motion sensor 60. The Flush-All-Tankless 20housing is shown with mounting flanges 21 that connect theFlush-All-Tankless 20 to an optional dummy base 29 that spaces theFlush-All-Tankless 20 from a wall. This dummy base 29 is optional andthe user does not have to use.

The drain line 55 is connected to the toilet bowl 58 with anAll-split-lock coupler assembly 56 (see FIG. 7 below) with a dome shapedcover that is part of the coupler assembly. The drain tubing with thehex shape side protrusion is screwed into the split-lock coupler andtightened against the dome shaped cover to enhance the retention andstrength to this joint. If the flush line needed to come straight downthen one or multiple layers of a plastic or other materials, dummyblocks can be added behind the unit to bring it forward. The flush linecan also be made in sections to allow it to be turned in the correctdirection (straight down) without using any dummy blocks.

The tube 55 can be made in different sizes and configurations to allowwall mounting or can be made short to allow for direct mounting on thetoilet bowl. A dummy base with different thicknesses can be mountedbehind the Flush-All-Tankless 20 to keep the drain line straight.

FIG. 5 shows the Flush-All-Tankless with the factory built-in universalmounting base. In this figure, the Flush-All-Tankless housing 54 isconnected with the factory built-in universal All-Mounting-Base 90. TheFlush-All-Tankless housing 54 in this figure shows a side connectionport 24 for an alternate location for water to enter theFlush-All-Tankless housing 54. The tank shows the flush handle 50mounted on the side of the Flush-All-Tankless housing 54.

All-Mounting-Base 90 has blind nut like openings size 5/16″ or others onthe lower side and a large tube 40 like opening for the flushed waterflow. The nut like openings which are opened only toward the lower sideis used to mount this base to the many different designs of the toiletbowls. The large tube 40 opening is to allow for the flush water to flowto the toilet bowl. The All-Universal mounting bolt 95 size 5/16″ orothers (see description below) will be used to fasten this base to thetoilet bowl. In this version the All-Bolt 95 will screw into theAll-mounting base 90 after being passed through the holes used to mountthe old toilet tanks to the toilet bowls. Another version of theAll-bolt 95 is with a lock washer and no wing nuts to prevent theft ofthis device in a public restroom.

Both the All-Bolt 95 and the All-Nut 94 size 5/16″ or others on it staysout of the corrosive nature of water which prevents rust and leaksaround those bolts usually found on conventional toilet bowl tanks.Universal-Mounting-Bolt (All-Bolt), is the specially built bolt (sizes5/16″ or other sizes) with one end that has a wing nut or with a screwhead or a hex wrench slot to allow for the initial alignment of thetoilet bowl with the Flush-All-Tankless mounting base 90. The other endof the All-Bolt 95 is open and will screw to theAll-Universal-Mounting-Base 90. Universal (All-Nut) 94 is a combinationof wing nut/hex nut/washer all cast into one piece. This All-Nut screwsinto the All-Bolt 95 to allow for securing the Flush-All-Tankless 54universal mounting base 90 to the toilet bowl. The rubber washer 92 isto brace and protect the toilet bowl as the All-Nut 94 is tightenedagainst the Flush-All-Tankless base 90. The All-nut 94 is to handtighten the All-Nut on the All-Bolt 95 and to the toilet bowl. The addedhex nut design to helps people whose hands are too weak to secure thisdevice to the toilet bowl with hands alone. This way they can use awrench and carefully tighten the All-Nut 94. Rubber washers 92 and 96provides a tight fit between the toilet bowl and the Flush-All-Tanklessbase 90.

An option to use All-Bolt II 80 size 5/16″ or others to screw thisdevice to a commercial toilet bowls (with no toilet tank holes) usingthe universal mounting base holes generating a bracing effect togetherwith the drain pipe creating a tripod like retention effect.

The All-Bolt II 80 has screw-on nut size 5/16″ or others that has both acurvature 82 and a sharp 90-degree 81 seating (as shown in FIG. 5) thatmatches the different shapes of the toilet bowl curvatures in the backwhere it attaches to the device. The All-Bolt II 80 further includes awingnut handle 83 for tightening the All-Bolt II 80. This type ofmodifications is only optional since the All-Split-Lock coupler jointoffer enough strength and stability to mount this device to commercialtoilets. Of course if the future commercial toilet bowls are made withmounting holes, then none of this additional modifications are neededand the Flush-All-Tankless with the built-in All-Universal-Mounting-Basecan be used instead.

FIG. 6 shows another alternate perspective view of a conventionalresidential style sit-down toilet with the Flush-All-Tankless using acity water connection 34. This figure shows the Flush-All-Tanklessversion 54 with a built in All-Universal-Mounting-Base 59 connected to atoilet bowl. This toilet bowl has two water tank mounting holes (like inmost homes toilet bowls) which makes mounting this device as simple asscrewing in the two All-Bolts 93 with the wing nuts into the matchingposition on the All-Universal-Mounting-Base 59.

In this diagram, the inlet water is connected to the water connectionbehind the device, this way it would be out of sight. This one has amotion sensor 60 on top (All-motion sensor, see FIG. 9 for description)& an oversized flush handle 50, All-handle.

FIG. 7 shows the All-Split-Lock flusher coupler assembly 56. Thiscoupler assembly is used in toilet bowls that have no holes to attach awater tank such as in many commercial toilet bowls. If the toilet bowlhas holes then Flush-All-Tankless with built-inAll-Universal-Mounting-Base should be used. This coupler 56 can also beused on Urinals. The dome shaped cover component of this assembly is forsupporting the water supply tankless housing.

This assembly is made of four parts:

A: Incoming drain pipe 100 with tapered threaded end 101 to allow theexpansion of the Split-Lock coupler 102. The pipe has a built in hexprotrusion (not a nut) around its base to allow using a wrench totighten this pipe into the Split-Lock coupler and against the domeshaped cover. This tightening of this pipe against the oversized domeshaped cover is important in increasing the strength and the mechanicalretention and reducing the stress on this joint. 105 is a union joint,and 106 is a bushing or a washer that is made from Nylon or otherequivalent bushing material. In this figure item 107 is a cross-sectionof 106.

B: All-dome shaped cover 104. This cover should be wide enough toenhance the strength and the mechanical retention of the split-lockcoupler and reduce the stress on the joint.

C: All-Split-Lock coupler 102 as the diagram shows this coupler is madeof two separate halves that slip into each other to expand or shrink tolock-in place the next item (All-Slip-In-Washer 103). Because thiscoupler 102 has a curvature or concavity on the outside periphery, thisdesign makes it possible for a strong mechanical retention. Presentcouplers on the market only offer water tightness while this coupleroffers both water tightness and a strong mechanical not just frictionalretention. This coupler can be made of brass, chromed steel, plastic, orany other hardy polymers. This design was needed because of the accessto the toilet bowl flush water inlet is through a single side only. Thisdesign I created to accommodate attachment of this device to commercialtoilet bowls that has no conventional toilet tanks mounting holes whichare usually found in residential toilet bowls.

D: All-Slip-in-Washer 103 that is made of rubber, silicone, nylon, orany other hardy flexible polymer. This washer will expand as thesplit-lock coupler is expanded in its center when the tapered incomingdrain pipe is screwed into it. This design offers a great mechanicalretention to the one sided toilet bowl incoming water inlet.

FIG. 8 shows a perspective view of the flush handle 110. The upper,lower and side movement of the handle is determined by thewindow/opening in the cover 112 of the ball-in-socket end of the flushhandle where the window/opening has an upper stop 113 and a lower stop115 as well as side stops 114. The flush handle is built heavy andoversized to make it easier for children and older people to flush. Thecover 112 has a union coupler 111 to secure the cover 112 to the side ofthe housing 20.

FIG. 9 shows the All-Flush-All-Tankless motion detector 60.

The Flush-All-Tankless has the option of a motion detected flushing.This motion detector 60 can be added or removed as an option per user'sdemand. This one consists of a battery 65 operated electromagnetic coil64 that exerts an electromagnetic pull on a pole 69 that is positionedin its center. This pole 69 is mechanically screwed into the top 123 ofthe All-Washer. The pole 69 is screwed into a nut that is cast into theAll-Washer 40 to allow the connection of the motion activated flush rod69 to screw into it and to allow the assembly of the All-Washer 40 toactivate the actuator arm below it.

When this coil 64 is activated it would pull this pole 69 upward. Thispole 69 would then pull up the All-Washer 40. This upward pulling of theAll-Washer 40 would activate water flushing cycle. This momentary upwardpull of the pole 69 caused by the battery 65 activating theelectromagnetic coil 64 with a circuit board 67 controlling the lengthof the activation (i.e. 5 seconds, 10 seconds etc. by adjusting apotentiometer 68 on the control circuit 67 to the desired length of theflush cycle) a water 122 in the water chamber 54 is flushed down 124 thetoilet bowl or the urinal. At the end of the activation cycle thebattery 65 current to the coil 64 is cut off and the flush rod spring 42load pulls down the pole 69 into the shut off position. The motionsensing window 61 and the motion sensor 62 with the whole circuit boardassembly 63 can be rotated in a horizontal plane by rotating both thecover 120 and the circuit board assembly 63 to any position or directiondesired by the user because the cover 120 includes a union style coupler121 and the base includes stops 66 to allow rotation of the circuitboard assembly 63. By positioning this sensing window 61 to the side,instead of the forward facing, it would prevent accidental flushing asthe user prepares to use the toilet bowl.

FIG. 10 shows the Flush-All-Tankless with the handle in the topposition. This position makes it easier to reach the handle and it willalso increase the size of the water reservoir. Item 26 is a flush waterflow channel.

FIG. 11 shows the unique All-Flush handle (FIG. 11A) that offers both aneasy grip and a strong torque force because of the larger handle size.(FIG. 11B) shows a close-up of the All-joint as it is made with doubleconvex actuator arms (R) that are sandwiched between two All-Washers (W)that are made of lock nuts that are hex shaped on one side and rounded(torus) shaped on the other side. The rounded sides will engage theconvex portion of the actuator arm (R) in a ball-and-socket fashion typeof articulation which allows for a slight three-dimensional movementinstead of being locked in a single plane. FIG. 11C shows across-section of the flush rod (F) as it passes through the actuator arm(R). Flush rod (F) does not fit tight against the actuator arm (R). Thiscreates a slight space (S) that allows for the slight three-dimensionalarticulation. This type of articulation will prevent water depositbuild-up or jamming as usually happens in a two-dimensional articulationon high humidity environments.

The flushing mechanism in the Flush-All-Tankless utilizes minimalmechanical & hydraulic interaction. A simple push on the flush handleopens a valve to allow water to flow, upon release of the handle thespring tension closes the valve automatically. The valve in theFlush-All-Tankless is made of a coated metal. This guarantee this systemto have virtually no parts to wear out. In contrast present conventionaltoilet bowl flushing systems involves many mechanical and hydraulicinteractions to start and end a single flush. In a conventional toiletbowl system the flush handle is tightly screwed on the porcelain coverand connected on the inside to the flush actuator rod which must belocated somewhere above the rubber flapper to work properly. Theactuator arm is connected by a metal chain or a rubber strap to theflapper. The length of this chain or strap is very critical. If it istoo short then a flapper drain opening interface will leak water and ifis too long, no flushing will occur.

Different toilet bowl companies utilize different techniques to keep theflapper suspended or a float in an upright position to allow thecomplete flushing of the tank. This flapper floating suspension is veryinefficient in keeping the flapper suspended long enough that it wouldallow a large quantity of water to be wasted as the automatic refillmechanism is activated. This refilling does not actually refills thetank until the flapper is back down and there is enough water weight ontop of it to force the flapper to seal the drain opening. This wastedwater does not help in cleaning the toilet bowl because its pressure hasdissipated as it flows on the floor of the water tank. As you see theamount of water wasted is much more than just a simple 1.2 gallonsrating of the tank water. The water tank water level must be adjustedjust right. If too high the overflow tube will prevent the auto refillfrom shutting off, and if is too low people will flush a multiple oftimes to clear the bowl content causing even more water waste. Most autorefill devices are prone to deterioration due to being in water 24/7.This would lead to stickiness, jamming and malfunction. Theflapper-drain opening interface often leaks small amount of water thatis hard to detect visually. This is caused by the flapper deforming,warping or build-up of hard water deposit and mold. This would lead to avaricose veins like water deposit stains in the toilet bowl caused bythis difficult to seal design. Models of toilet bowl systems that arepresently found on the market that uses direct water pressure also useother devices such as bladders, plungers, relief valves, rubberdiaphragms, gaskets, syringes, air inducers, pressure regulators, vacuumbreakers . . . etc. that creates such an incredible noise that mostpeople are reluctant to flush them at night so as not to wake upsleeping people. Those devices also use a lot of water and a fixedamount of water (not on demand amount) and are made of material that caneasily deform, fatigue, sometimes explodes or wear out from being inwater 24/7 or moving back and forth, up & down, inflate or deflate toperform their functions. None of them are designed to be retrofitted toan existing toilet bowl system and most of them require to be fittedinside a water tank with a pressure regulator. Most require a completereplacement of the whole system.

Keeping a conventional toilet bowl flushing systems working properly isa continuous and an ongoing task that takes time and effort not to countrepair expenses and water loss or water damage with resulting healthrisks. The description and the diagrams/figures included shows thisdevice as an easy to understand, easy to install and easy to build ormanufacture.

The flush system provides a continuous and controllable water volume andwater flush rate that is not found in any toilet water flushing system.A gentle push on the flush handle will allow a partial and quiet flushthat will clear a toilet bowl with light content and will not awakensleeping people at night. Conventional toilet flusher gives you thechoice of only a full flush cycle with no partial flushing choice.

Thus, specific embodiments of a Flush-All-Tankless system have beendisclosed. It should be apparent, however, to those skilled in the artthat many more modifications besides those described are possiblewithout departing from the inventive concepts herein. The inventivesubject matter, therefore, is not to be restricted except in the spiritof the appended claims.

1. A tankless toilet flush system comprising: a sealed tank assembly;said tank assembly having an input for a water supply; said tankassembly having a city water pressure reservoir; said tank assemblyhaving a water reservoir; said pressure reservoir being pressurized bysaid water supply, and a flushing mechanism that initializes a flushsequence.
 2. The tankless toilet flush system according to claim 1wherein said pressure reservoir and said water reservoir are the samereservoir.
 3. The tankless toilet flush system according to claim 1further includes a conical shaped All washer.
 4. The tankless toiletflush system according to claim 1 further includes a spring to maintainsaid All washer in said conical recess.
 5. The tankless toilet flushsystem according to claim 1 wherein said flush sequence is an instant onand off that is controlled by said flush mechanism.
 6. The tanklesstoilet flush system according to claim 1 wherein said flush sequenceoperates on demand.
 7. The tankless toilet flush system according toclaim 1 wherein a user controls a flush volume.
 8. The tankless toiletflush system according to claim 1 wherein said sealed tank has auniversal mounting base with more than two mounting holes.
 9. Thetankless toilet flush system according to claim 1 wherein said flushsequence provides a continuous and controllable water volume and waterflush rate.
 10. The tankless toilet flush system according to claim 1wherein said flushing mechanism is a handle or a button or a motionactivated sensor.
 11. The tankless toilet flush system according toclaim 10 wherein said handle raises and lowers a sealing washer.
 12. Thetankless toilet flush system according to claim 10 wherein said motionactivated sensor is on a rotatable base.
 13. The tankless toilet flushsystem according to claim 10 wherein said motion activated sensoractivates said flushing sequence based upon hand motion.
 14. Thetankless toilet flush system according to claim 10 wherein said motionactivated sensor operates a solenoid connected to a flush rod.
 15. Thetankless toilet flush system according to claim 9 wherein said handleoperates through a ball and socket joint.
 16. The tankless toilet flushsystem according to claim 11 further includes at least one threaded Allbolt and at least one All nut.
 17. The tankless toilet flush systemaccording to claim 12 wherein said All washer is coated with rubber,silicone, nylon or metal.
 18. The tankless toilet flush system accordingto claim 12 wherein said All washer seats in a conical recess.
 19. Thetankless toilet flush system according to claim 18 wherein said conicalrecess includes a plurality of flush water flow channels.
 20. Thetankless toilet flush system according to claim 6 wherein a flushduration is adjustable.
 21. The tankless toilet flush system accordingto claim 1 wherein the water reservoir of the Flush-All-Tankless is partof a building sealed plumbing system and is not part of any open waterreceptacle that can over-fill and flood.